After completing the course, the student:
- understands the physical origin of the treated topics in terms of the underlying NMR signal
- understands and can mathematically describe the methods used for spin excitation, spatial encoding and related image reconstruction of the treated topics
- understands and can mathematically describe the methods for generating the contrast weighting of the treated topics;
- can derive optimal scan parameter settings in terms of signal-to-noise-ratio, contrast weighting, scan duration, etc.
- understands the quantification methods of various physiological quantities and processes covered in the treated topics
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Period (from – till): 5 Febuari 2018 - 21 April 2018
Course coordinator: Dr. J.C.W. Siero
Lecturers
Dr. J.C.W. Siero, UMC Utrecht/Imaging Division, lecturer
Renée Allebrandi, MA (course registration)
Course description
This advanced MRI course builds on the course Advanced MR Physics 1 (required to take part in this course). The mathematical and physical framework laid down in AMRP 1 is used to focus on MR imaging methods and applications, e.g. fast spin echo and gradient echo scanning methods, MR angiography, perfusion quantification, diffusion imaging, etc
More detailed descriptions may be added later when they come available.
Literature/study material used
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Registration
At least 2 weeks before start of the course. Register via the study guide.
Mandatory
No.
Optional for students in other GSLS Master’s programme:
Yes, provided they have passed the course Advanced MR Physics 1.
Prerequisite knowledge:
Advanced MR Physics 1
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